FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2005015105> ?p ?o ?g. }

• W2005015105 endingPage "76" @default.
• W2005015105 startingPage "59" @default.
• W2005015105 abstract "Abstract We revisit the phosphorus‐retention and nutrient‐loading models in limnology using a Bayesian hierarchical framework. This methodological tool relaxes a basic assumption of regression models fitted to data sets consisting of observations from multiple systems, i.e., the systems are assumed to be identical in behavior, and therefore the models have a single common set of parameters for all systems. Under the hierarchical structure, the models are dissected into levels (hierarchies) that explicitly account for the role of significant sources of variability (e.g., morphometry, mixing regime, geographical location, land‐use patterns, trophic status), thereby allowing for intersystem parameter differences. Thus, the proposed approach is a compromise between site‐specific (where limited local data is a problem) and globally common (where heterogeneous systems in wide geographical areas are assumed to be identical) parameter estimates. In this study, we used critical values of the mean lake depth and the hydraulic residence time ( τ w = 2.6 years) to specify the hierarchical levels of the models. Our analysis demonstrates that the hierarchical configuration led to an improvement of the performance of six out of the seven hypothesized relationships used to predict lake‐phosphorus concentrations. We also highlight the differences in the posterior moments of the group‐specific parameter distributions, although the inference regarding the importance of different predictors (e.g., inflow‐weighted total phosphorus input concentration, and hydraulic retention time) of lake phosphorus or the relative predictability of the models examined are not markedly different from an earlier study by Brett and Benjamin. The best fit to the observed data was obtained by the model that considers the first‐order rate coefficient for total phosphorus loss from the lake as an inverse function of the lake hydraulic retention time. Finally, our analysis also demonstrates how the Bayesian hierarchical framework can be used for assessing the exceedance frequency and confidence of compliance of water‐quality standards. We conclude that the proposed methodological framework will be very useful in the policy‐making process and can optimize environmental management actions in space and time." @default.
• W2005015105 created "2016-06-24" @default.
• W2005015105 creator A5041821047 @default.
• W2005015105 creator A5042911844 @default.
• W2005015105 creator A5072714354 @default.
• W2005015105 date "2009-07-18" @default.
• W2005015105 modified "2023-10-14" @default.
• W2005015105 title "A revaluation of lake-phosphorus loading models using a Bayesian hierarchical framework" @default.
• W2005015105 cites W1517555081 @default.
• W2005015105 cites W1590504435 @default.
• W2005015105 cites W176803738 @default.
• W2005015105 cites W1869107023 @default.
• W2005015105 cites W1946738347 @default.
• W2005015105 cites W1970254498 @default.
• W2005015105 cites W1978420442 @default.
• W2005015105 cites W1981321316 @default.
• W2005015105 cites W1991118187 @default.
• W2005015105 cites W1993897679 @default.
• W2005015105 cites W1996074976 @default.
• W2005015105 cites W1996957126 @default.
• W2005015105 cites W2006021716 @default.
• W2005015105 cites W2006601653 @default.
• W2005015105 cites W2008351987 @default.
• W2005015105 cites W2011441971 @default.
• W2005015105 cites W2012252086 @default.
• W2005015105 cites W2012523020 @default.
• W2005015105 cites W2028616967 @default.
• W2005015105 cites W2031744244 @default.
• W2005015105 cites W2034830481 @default.
• W2005015105 cites W2034993173 @default.
• W2005015105 cites W2035892982 @default.
• W2005015105 cites W2037120218 @default.
• W2005015105 cites W2038090024 @default.
• W2005015105 cites W2039164136 @default.
• W2005015105 cites W2044760104 @default.
• W2005015105 cites W2045799785 @default.
• W2005015105 cites W2046190647 @default.
• W2005015105 cites W2049933744 @default.
• W2005015105 cites W2057765075 @default.
• W2005015105 cites W2062941920 @default.
• W2005015105 cites W2069528044 @default.
• W2005015105 cites W2073903114 @default.
• W2005015105 cites W2080577297 @default.
• W2005015105 cites W2081581256 @default.
• W2005015105 cites W2083863670 @default.
• W2005015105 cites W2085921233 @default.
• W2005015105 cites W2096370047 @default.
• W2005015105 cites W2097513864 @default.
• W2005015105 cites W2099018787 @default.
• W2005015105 cites W2099534828 @default.
• W2005015105 cites W2107577811 @default.
• W2005015105 cites W2112242368 @default.
• W2005015105 cites W2113266710 @default.
• W2005015105 cites W2123735395 @default.
• W2005015105 cites W2128831562 @default.
• W2005015105 cites W2131658448 @default.
• W2005015105 cites W2133147883 @default.
• W2005015105 cites W2133987187 @default.
• W2005015105 cites W2142245349 @default.
• W2005015105 cites W2143329577 @default.
• W2005015105 cites W2147009048 @default.
• W2005015105 cites W2155235180 @default.
• W2005015105 cites W2156592557 @default.
• W2005015105 cites W2157023045 @default.
• W2005015105 cites W2158857426 @default.
• W2005015105 cites W2159736088 @default.
• W2005015105 cites W2162307871 @default.
• W2005015105 cites W2164408378 @default.
• W2005015105 cites W2908765440 @default.
• W2005015105 cites W4230719958 @default.
• W2005015105 cites W4247690662 @default.
• W2005015105 cites W4249731213 @default.
• W2005015105 cites W4251115254 @default.
• W2005015105 cites W4254992777 @default.
• W2005015105 cites W4312268261 @default.
• W2005015105 cites W88269717 @default.
• W2005015105 doi "https://doi.org/10.1007/s11284-009-0630-5" @default.
• W2005015105 hasPublicationYear "2009" @default.
• W2005015105 type Work @default.
• W2005015105 sameAs 2005015105 @default.
• W2005015105 citedByCount "34" @default.
• W2005015105 countsByYear W20050151052012 @default.
• W2005015105 countsByYear W20050151052013 @default.
• W2005015105 countsByYear W20050151052014 @default.
• W2005015105 countsByYear W20050151052015 @default.
• W2005015105 countsByYear W20050151052016 @default.
• W2005015105 countsByYear W20050151052017 @default.
• W2005015105 countsByYear W20050151052018 @default.
• W2005015105 countsByYear W20050151052019 @default.
• W2005015105 countsByYear W20050151052020 @default.
• W2005015105 countsByYear W20050151052021 @default.
• W2005015105 countsByYear W20050151052022 @default.
• W2005015105 countsByYear W20050151052023 @default.
• W2005015105 crossrefType "journal-article" @default.
• W2005015105 hasAuthorship W2005015105A5041821047 @default.
• W2005015105 hasAuthorship W2005015105A5042911844 @default.
• W2005015105 hasAuthorship W2005015105A5072714354 @default.
• W2005015105 hasConcept C105795698 @default.

• next